Apparatus for covering elongate members

ABSTRACT

Method and apparatus for covering a rigid elongate member of indefinitely continuous length by adhesively applying a tape to said member, advancing the member through a tapered, apertured throttle means, applying pressure to the tape, passing the taped member through a passage in a mandrel contained in a die, passing synthetic resin through a separate passage in the die, while withdrawing air contained in a gap formed between the extruded resin and the elongate member outside the die, and causing a tight contact between the extruded resin and the member with the tape thereon outside the die.

June 4, 1974 TAKAO YAMAoKA ErAL 3,814,649

APPARATUS FOR COVERING ELONGATE MEMBERS Filed Dec. 25, 1971 4 Sheets-Sheet 1 FIG. I

\ ijfin {MERLE June 4, 1974 TAKAO YAMAQKA ETAL 3,814,649

APPARATUS FOR COVERING ELONGATE MEMBERS Filed Dec. 25, 1971 4 Sheets-Sheet 2 June 4, 1974 TAKAQ YAMAQKA ETAL 3,814,649

APPARATUS FOR COVERING ELONGA'I'E MEMBERS Filed Dec. 23, 1971 4 Sheets-Sheet 5 FIG. 7

June 4, 1974 TAKAO YAMAOKA ETAL 3,814,649

APPARATUS FOR COVERING ELONGATE MEMBERS Filed Dec. 23, 1971 4 Sheets-Sheet 4 United States Patent 3,814,649 APPARATUS FOR COVERING ELONGATE MEMBERS Takao Yamaoka, Toyonaka, Osaka, and Osamu Sasaki and Takashi Yamana, Hirataka, Osaka, Japan, assiguors to Sekisui Jushi Kabushiki Kaisha, Tamal-cho, Kitaku, Osaka-shi, Japan Continuation-impart of abandoned application Ser. No. 821,274, May 2, 1969. This application Dec. 23, 1971, Ser. No. 211,470 1 Claims priority, application Japan, Sept. 17, 1968, 43/67,492; Oct. 21, 1968, 43/92,042 Int. Cl. B29b 5/00; B29c 17/00; B29f 3/03 US. Cl. 156-463 1 Claim ABSTRACT OF THE DISCLOSURE Method and apparatus for covering a rigid elongate member of indefinitely continuous length by adhesively applying a tape to said member, advancing the member through a tapered, apertured throttle means, applying pressure to the tape, passing the taped member through a passage in a mandrel contained in a die, passing synthetic resin through a separate passage in the die, while withdrawing air contained in a gap formed between the extruded resin and the elongate member outside the die, and causing a tight contact between the extruded resin and the member with the tape thereon outside the die.

This application is a continuation-in-part application of our copending application Ser. No. 821,274, entitled Two-Ply Covered Product and Process and Apparatus for'the Production Thereof, filed May 2, 1969, now abandoned.

This invention relates to a product comprising a pipe or rod or the like covered at first with a thin tape and thereafter with thermoplastic resin. More particularly, the product is covered with thin tape by placing the longitudinal direction thereof in common with that of the tube or rod, closely contacting said tape to the tube or rod, and thereafter applying a coating of transparent thermoplastic resin, whereby the surface of the tape remains visible. The invention also relates to the process and apparatus for manufacturing such product.

Heretofore, it has been lkl'lOWH to form a layer of thermoplastic resin on the outer surface of metallic tube or rod. However, such tube or rod has not been known which is manufactured by placing a thin tape wherein the longitudinal direction thereof is substantially in common with that of metallic or plastic tube or rod, and closely contacting such tape thereto, to cover the entire outer surface along the longitudinal axis thereof, and thereafter covering such surface by transparent thermoplastic resin, so that the surface of the tape is visible from outside.

The invention of the product described herein thus relates to a two-ply covered product which comprises as a core a member having an elongate profile, wherein cross sections perpendicular to the longitudinal axis thereof have the same profile, a length of thin tape, preferably a metallic foil, contacting to the outer surface of such member along the longitudinal axis thereof, said tape being placed in the manner in which the longitudinal direction thereof is substantially common with that of the elongate member, the tape covering the whole outer surface of said member and being closely contacted thereto, and the surface of said tape being covered by a resin, preferably-a transparent thermoplastic resin.

The following is a more detailed explanation of the invention relating to the product.

The elongate member contemplated can be a tube or rod. In either case, the profile or a cross section at right 7 angle tothe longitudinal axis of the tube or rod need not be circular, but can be square, rectangular or any other complicated shape. However, it is necessary that any cross section of such member be uniform. The elongate member may be formed of any suitable material such as metal, wood or the like.

As to the thin long tape, it is required that the width thereof be wide enough to encircle the outer surface of the tube or rod along the longitudinal axis thereof. Actually, the width of tape is preferably just equal to the circumference of tube or rod but may be a little wider than that. The tape may have a metallic gloss on its surface, and metallic foil or cloth, paper or plastics, et cetera, metalized with metallic foil can be used as the material thereof. One of the most suitable materials is tape aluminum foil, the thickness thereof being of the order of 0.2 mm. to 0.01 mm. The tape must be thin so as to be able to bend along the outer surface of the elongate member along the longitudinal axis thereof. On this tape various patterns, marks and colours may be printed whenever required. Also, if desired, the tape may be embossed.

The resin contemplated is preferably transparent so that the surface of the tape is visible through the layer of resin. Also, the resin must be thermoplastic, because it is intended that it be continuously applied through an extruder. Suitable examples of such resins are cellulose acetate and polyvinyl chloride. Such resin can be either of the so-called rigid or flexible types.

It will be appreciated that the tape will not be damaged, destroyed, corroded nor faded easily, but will retain an attractive appearance indefinitely because it is covered with the transparent plastic resin. In the case of aluminum tape covered with a cellulose acetate resin, for example, the product appears similar to nickel or chromium plated metal or stainless steel, but is considerably more economical since iron or plastic material can be used for the tube or rod. Also, by embossing said aluminum foil and giving the foil a relief pattern before covering it with the resin, a unique appearance, which cannot be obtained by plating, can be provided.

There has thus been outlined rather broadly the more important features of the invention in order that the detailed description thereof that follows may be better understood, and in order that the present contribution to the art may be better appreciated. There are, of course, additional features of the invention that will be described hereinafter and which will form the subject of the claims appended hereto. Those skilled in the art will appreciate that the conception upon which this disclosure is based may readily be utilized as a basis for the designing of other structures for carrying out the several purposes of the invention. -It is important, therefore, that the claims be regarded as including such equivalent construction as do not depart from the spirit and scope of the invention.

A specific embodiment of the invention has been chosen from purposes of illustration and description, and is shown in the accompanying drawings, forming a part of the specification, wherein:

FIG. 1 is a top plan view of the apparatus for forming the product;

FIG. 2 is a view, partially in cross-section, illustrating formation of the product;

'FIG. 3 is a perspective view of a guide member forming part of the apparatus of FIG. 1;

"FIG. 4 is an end elevational view of a portion of such apparatus;

FIG. 5 is a perspective view of tape dispensing means;

FIG. 6 is a cross section of the product;

FIG. 7 is a perspective fragmented view of the product;

FIGS. 8,, 9 and 10 show enlarged cross section of other examples thereof;

FIG. 11 is a longitudinal sectional view of an extruder machine in a modified embodiment according to the present invention; and

FIG. 12 is a longitudinal sectional view of an extruder machine in a further modified embodiment according to the present invention.

Referring first to FIGS. 6 to 9, a designates the elongate tube or rod; b the tape to cover same; and c transparent thermoplastic resin covering the tape; and b1 indicates the adjacent edges of tape b.

The covered long-shaped piece in this invention is suitable for material to compose various types of furniture such as kitchenware and the like. When a steel tube or rod is used as the elongate member a, and aluminum foil covers same, it can be cut to any desired length and by fixing an end cap d (FIG. 7) by screwingor cementing, an attractive, neat end can be obtained.

The tape to be used in the present process is not limited to thin tape having metallic gloss described in above explanation, but cloth, paper, or plastic film or sheet and the like can be used. It is necessary to feed the tape continuously as the tube or rod advances. To this end, we place the tube or rod above the tape so that the longitudinal axes of both are parallel, and then bring the two together wrapping the tape on the tube or rod.

According to the present process, it is necessary that the tube or rod and tape contact closely by following the method described above, and to transfer them into a throttle guide, the object of which is to reduce the clearance between the tube or rod and the tape surrounding it and to cause the tape to contact closely the tube or rod. The throttle guide is provided with holes which are just big enough to pass the tube or rod together with the tape surrounding it; and by passing them through it, close contact between tube and tape is achieved.

It is necessary to apply further pressure to the both edges of tape along the longitudinal axisthereof and bring them into close contact. As already described, the width of tape is just enough to encircle the outer surface of the tube or rod along the longitudinal axis thereof, therefore, after passing through the throttle guide, the tape will closely contact the tube or rod and both edges of the tape parallel to the longitudinal axis thereof will either come together or slightly overlap. Thus, it is intended to apply further pressure to make these meeting or slightly overlapping edges adhere more firmly together. This process of applying pressure may be achieved by a roll, and by placing the roll on the meeting or slightly overlapping edges and pressing same against the tube or rod. Before this pressing process, adhesive can be applied to the meeting or overlapping edges. When adhesive is applied, -it is advisable to ensure the adhesion by pressing the rolls which may be heated on the place where the adhesion is applied.

The tube or rod covered with tape is then advanced into cross-head type dies mounted on an extruder and the tube or rod is covered with transparent thermoplastic resin on the outer surface of the tape. Such cross-head dies for covering purposes and such covering process, are

already known.

If, in the practice of the present process, the tube or rod to be used is elongate and rigid, such as a metallic tube, such member cannot be wound and it must always be used in a substantially straight length cut as desired, while the tape can always be supplied in a wound state. However, even if there are breaks in the tube or rod, it is not necessary to provide special means and covering can be performed continuously. After the covering process has been completed, lines of separation of the tube or rod can be easily found on the surface of plastic resin layer and if the member is cut at such part, the discontinuity of the tube or rod does not constitute any handicap.

As stated, any desired pattern can be embossed or printed on the tape so that when covered with t ansparent plastic resin, a beautiful appearance can be obtained and the embossment or print can be kept beautiful for long periods.

The invention also relates to apparatus for carrying out the aforesaid process. The apparatus comprises, briefly, transferring means for advancing the elongate member in the direction of its longitudinal axis, means continuously supplying a tape to the surface of the member, throttling means for pressing the tape to the outer surface of the member, means butting adjacent edges of the tape and means applying a layer of plastic resin to the outer surface of the tape.

The transferring means may, for example, comprise a series of aligned rolls or rolls with a conveyor belt extending along their upper surfaces.

The tape supply means is illustrated by way of exam: ple in FIG. 5 wherein tape b is furnished in the form of a roll 2 mounted on a core 1. If desired, the tape may be printed or embossed after unrolling as by embossing rolls 3, 3. It is, of course, required that the longitudinal direction of the tape match that of the metallic tube.

Tape b, as shown in FIGS. 1 and 2, passes embossing rolls 3 and, by guide roll 5, is brought beneath the tube or rod a and is then conveyed together with the tube or rod a by several curved surface rolls 6 which gradually cause it to contact the bottom of the tube or rod. The tape and tube or rod then passes through guide 7 which, as shown in FIG. 3, is provided with several parts 71, 72, 73 and 74, each of which has a hole, these becoming gradually smaller. By passing such guide 7, tape b is made gradually to contact closely to the surface of the tube or rod a. After tape b is thus almost fully contacted to the surface of the tube or rod a, they are transferred into throttling device 8.

The object of the throttling device 8 (FIGS. 1 and 2) is to complete contact of the tape b to the tube or rod a. The throttling device 8 is provided with a hole 81 through which passes the tube or rod a surrounded with tape b. The inside surface of such hole 81 is tapered, becoming narrower toward the direction in which the tube or rod progresses; and at its narrowest part, the hole is provided with elastic material which causes tape b to contact firmly the tube or rod a. As examples of elastic material to be used on the throttling device 8, we may use felt, woollen cloth, blanket cloth, rubber, artificial velvet, foamed fluorocarbon resin, polyethylene,

etc.

An example of the pressing means to contact both edges of the tape together closely may be a roll 9 shown in FIGS. 1 and 2. This roll 9 presses the edges of tape b which are 'butted along the tube or rod a, and thus tape b contacts perfectly to tube or rod a.

An embodiment of the means for applying a layer of resin to the tape b is shown at 10 in FIGS. 1 and 2 and may comprise dies 10 and extruder 11.

From the discharge outlet of the die 10, a thermoplastic resin 12 is extruded in tubular form and made to compose a cover layer 0 on the outside of tape b. Thus, tape b covers the outer surface of the tube or rod a and further transparent thermoplastic resin 0 covers the outside thereof so that we obtain a two-ply covered product. This apparatus is very simple in construction and yet assures excellent performance.

Particularly where the elongate member has a cros section such as illustrated in FIG. 9, when this elongate member is coated with a layer of thermoplastic resin through the dies shown in FIG. 1, the thermoplastic resin in its fused condition does not penetrate into each corner or turning portion of the elongate member so that blowholes containing gas therein are formed which, in extreme cases, constitutes a cause for separation of the sheathing layer from the elongate member, or otherwise may hurt its appearance. In addition, it has been well known that an adhesive agent, generally applied on at least one surface of the tape, is susceptible to a relatively high temperature and, therefore, ,sometimes deteriorates due to the high temperature; A difiiculty'has alsobeeri encountered inthat the thermoplasticresin within'the dies in the fused'condition does not'maintain in its static pressure conditionso thatlittle uniformity is imparted to the sheathing layer. v

In such cases,"it is preferable ,to employ an extruder machine as shown in FlG ll'and FIG. 12

In FIGyll the die 10 is provided with a mandrel 13 which is in turn formed with a passage 14 for the elongate member a. As the elongate"member a continuously emerges out of the passage 14, thermoplastic resin in a fused condition'is concurrentlyf extruded in the form of hollow tubing through its passage 15 in the extruder machine, whereby the elongate member a is sheathed with the thermoplastic resin thus extruded. However, it should be noted that, since the passages 14 and 15 are inde pendently disposed in the die 10, contact between the thermoplastic resin. extruded and the elongate member takes. place outside the die 10, thereby forming a sheathing layer with said extrudedthermoplastic resin 12.

ThepassagelS is disposed around the passage 14 and so shaped that the thermoplastic resin when extruded outside the die 10 canencircle the elongate member passing through the passage 15. However, the shape of the passage 15 as viewed in the longitudinal direction of FIG. 11 may be selected to suit the cross section of the elongate member. The' distance betwee'n'the passages 14 and 15 at the position where the elongate member or the thermoplastic resin 12 is emerged from the die 10, should not be large, or else the tight contact between the elongate member and the extruded resin after they are emerged outside the die 10 will become difficult.

When the tight contact between the elongate member and the extruded resin takes place, an annular gap q is formed therebetween. In order to eliminate this gap q, according to the present invention, compressed air is supplied from its source 0 by means of a conduit 16 to a chamber 17. This chamber 17 is formed with a plurality of exhaust holes, as generally indicated by 18 in FIG. 11, so that the compressed air flows through said holes to the atmosphere in the direction as indicated by p. At this time, the value of the pressure in the space defined between the gap q and the chamber 17 is suddenly reduced and, thus, the air contained in said spacing is sucked in the same direction as that of the flow of the compressed air. Consequently, the gap q is reduced by the shrinkage of that portion of the extruded resin, and the elongate member can be sufficiently sheathed by the thermoplastic resin layer 0 as it is advanced in the direction opposite to the flow of the compressed air.

Although in the embodiment shown in FIG. 11, the jet flow of compressed air is utilized to establish the reduced pressure condition in the gap q or abovementioned spacing, other suction means may be employed, such as shown in FIG. 12.

Referring now to FIG. 12, the die 10 is provided with suction conduits extending between a suction pump (not shown) and respective guide holes formed in the die 10, said guide holes 20 being in turn connected with the gap q. It will thus be understood that, when the suction pump is operating, the air contained in the gap q is sucked therefrom to the atmosphere in the direction as indicated by the arrows 0', whereby a tight contact between the elongated member and the extruded resin takes place about the gap q in the same manner as given by the machine of FIG. 11. Reference numeral 19 represents a valving means interposed between the guide holes 20 and the suction pump.

By way of an example of the practice of our invention, we may use an iron tube of outside diameter of 9 mm. and a wall thickness of 1 mm. aluminum foil of a thickness of the order of 0.05 mm. and a width of about 32 mm. as tape, and cellulose acetate as plastic resin. Also polyvinyl acetate in emulsion was applied to both edges alonjgthe longitudinal direction of said tape.

apparatus shown in FIG. 1 was used, the tape b being unwound from roll 2 and supplied continuously to the undersurface of the metallic tube by guide rolls 5 through embossing rolls 3. An iron tube b cut to a standa'rd length was transferred from the side indicated by an arrow in FIG. 1 by rolls 4 and by guide rolls 5 placed above tape b, and furthermore conveyed by curved surface rolls 6. By curved surface rolls 6, tape b is pushed gradually nearer to the bottom of the tube a, and bypassing same through guide 7, the degree of contact becomes very close; and then by passing the tube and tape through throttling device 8, the tape b is brought into closer contact with the tube. Rolls 9 press both side edges of the tape, and polyvinyl acetate may have been applied thereto beforehand to bond them together and prevent the side edges from peeling off.

After this, by covering the tape with cellulose acetate in die 10, we obtain a finished two-ply covered product shown in FIG. 6.

This product produced according to the present invention, does not appear as a two-ply covered item since each layer settles perfectly and uniformly, and the finished product has a beautiful appearance as if it were plated metallic tubing and any desired pattern may be printed or embossed on the tape to be visible. The product, therefore, is valuable as a constructing material for furniture and the like.

In the case where the tube and the tape are not directly contacted, but a synthetic resin layer is interposed between them, as shown in FIG. 10, various advantages can be obtained. Concretely speaking the advantages in the manufacturing process are first, the tape e is easily brought into contact with the tube a by means of a synthetic resin layer, and secondly, the appearance of a closely contacted tape b can be beautifully maintained because even when the outside diameter of the tube a is irregular over the entire length thereof, the diameter can be uniformly maintained by the synthetic resin tube coating.

When the width of the tape is predetermined with respect to the circumference of the tube and this tape is used in sheathing a tube having an irregular outer diameter over the entire length thereof, a gap will be formed between the opposite edges of the tape when the latter encircles the periphery of the tube. However, such disadvantages can be prevented by the provision of the aforementioned synthetic resin whereby the tube can be covered by the tape so that the opposite edges are abutted to each other or overlapped one over the other. Further, the appearance of the product provided with the above synthetic resin layer e is beautiful since the above applied portions of the tape are not in excess. Also, in case the tube is made of metal and the tape is made from another metal, the two kinds of metals are prevented from contacting each other by the synthetic resin layer 2, the metals are inhibited from electrical corrosion and the article can be permanently maintained in a beautiful condition.

A bar made of metal, the cross section of which being of I-shape, having 15 mm. in upper width, 20 mm. in bottom width and 20 mm. in height, as shown in FIG. 9, was tightly sheathed with aluminum foil b, having 0.03 mm. in thickness and 102 mm. in width, by the use of rolls arranged to suit the I-shape of said bar. This a1u minum foil sheathed bar was continuously supplied through the mandrel 13 of the die 10 shown in FIG. 11 at the rate of 5 meters per minute while cellulose acetate fused at 200 C. was extruded through the passage 15 so as to give the form of a tubing outside the die 10 around the metallic bar. Eventually, the gap q was formed between the bar a and the extruded resin or resin layer 0. As the air contained in the gap was subsequently sucked to the atmosphere, the tight contact between the bar and the resin layer or extruded resin took place about 10 mm. away from the die 10 (25 mm. in the case where no air 7 is sucked). At this time, in order to suck the air out .of the gap, compressed air at 1.5 kg./cm. was continuously supplied from its source to the chamber and then exhausted in the direction ,9 through the exhaust ports 18.

The distance between the passages 14 and 15, at a position where the bar or the resin layer is'emerged from the die 10, was 2.5 mm.

It should be noted that compressed air in excess of 1.5 kg./cm. will result in sucking the extruded resin into the passage 14, while compressed air below this pressure will not provide the desired pressure reduced condition in the chamber.

The article thus obtained was beautiful, without any blowholes existing between the bar and the resin layer and with smooth surfaces over the entire length thereof.

We claim:

1. Apparatus for preparing a decorative tube having an attractive appearance of metallic gloss which comprises a plurality of rolls for advancing a metal tube in the direction of the longitudinal axis of the tube, a plurality of curved surface rolls for continuously supplying a tape to the surface of said tube, guide and throttle means for completing contact of the tape to the tube, pressing rolls for butting both side edges of the tape, and an extruding device for covering the tape with a thermoplastic transparent resin, said extruding device comprising a die, a mandrel mounted in said die, and suction means, said mandrel being formed with a passage through which the metal tube is passable, a passage being formed between the outer wall of said mandrel and the inner wall of said die for the passage of the resin, said passages being indepen'dentlyjfornied 'in th edie, without any contact with each other; said suctionfinea'ns comprising a chamber and a conduit for supplying jthe air into the chamber, said chamber beingattachedtothe inner wall of said mandrel on the'inlet side" ofthe metal tube and provided with a plurality of holes in the inner wall of said chamber running obliquely inthe direction opposite to the advance: ment direction of the tube so that the air may flow through said holes from. said chamber to the atmosphere, thereby reducing the pressure in a gap, formed between the extruded resin and the metal tube outside the die by drawing the air in the gap .and pass'ing'it to the'atmo'sphere, and thereby to cause tight contact between the extruded resin and the metal tube.

References Cited UNITED STATES PATENTS DOUGLAS 1. DRUM-MOND, Primary Examiner B. J. LEWRIS, Assistant Examiner US. or. XLR. 156286, 500 v 

